KR20030032486A - Continuous volume reducing apparatus and method using the same - Google Patents

Abstract

PURPOSE: Provided is a continuous volume reducing system for waste styrofoam which compresses and reduces the volume of the waste styrofoam to form the waste styrofoam in a pellet or a pole type so that it gives convenience in carrying. CONSTITUTION: The continuous volume reducing system for waste styrofoam comprises the parts of: a container(10) which compresses and reduces the volume of the waste styrofoam; a hopper(20) which is placed at front upper part of the container to project the waste styrofoam; a crusher(30) which is built in the lower edge of the hopper to crush the waste styrofoam; a first spray(40) which is placed between the crusher and the container to spray volume reducing solution to the crushed waste styrofoam; a screw axis(65) which receives driving power of the driving motor(50) and is rotated; a conic screw(60) which is placed at the screw axis to compress the waste styrofoam and move the waste styrofoam to rear edge of the container; a pellet injector(100) which is placed at rear edge of the container to process the waste styrofoam in a pellet type; a storage bath(70) which is connected to the container by a pipe line to store the volume reducing solution; and a circulation pump(90) which pumps the volume reducing solution from the storage bath to flow the solution in the first spray.

Description

Continuous Waste Styrofoam Reduction Device and Reduction Method Using Them {CONTINUOUS VOLUME REDUCING APPARATUS AND METHOD USING THE SAME}

The present invention relates to a continuous waste styrofoam reduction apparatus and a reduction method using the same, and more specifically, waste styrofoam (foamed polystyrene) is stored in a waste styrofoam hopper and crushed through a shredder that can be shredded into a size of 30 to 100mm After that, the solution is sprayed through a solution spraying device to reduce the volume to 1/30 to 1/50, and is supplied by a conical compression screw to separate the compression and the solid-liquid, and then discharged in the form of pellets or rods in a pellet forming machine at a later stage. Thereby, the present invention relates to a continuous waste styrofoam reduction apparatus and a reduction method using the same so that these can be used as styrofoam raw materials and recycled raw materials.

Styrofoam used in Korea as of 2000 is 74,470 tons / year. Among them, waste styrofoam is 53,024 tons / year generated from waste and recycled styrofoam is 27,177 tons / year. Of the remaining waste styrofoam, 32.5% of 15,637 tons / year are reclaimed and 19.2% of 10,210 tons / year are incinerated, so the essential elements for reducing landfill and incineration throughput and recycling waste styrofoam are environmentally friendly and low cost. To provide an effective volume loss. Since styrofoam is manufactured by foaming polystyrene resin 10 to 15 times, it is a big problem to transport because it is considerably larger than its weight. It was necessary to cut in the form of pellets or rods.

Until now, waste styrofoam reduction method has been used by direct heating method, hot air type, indirect heating method, extrusion type, compression type and solution reduction type using toluene, acetone, methyl chloride, etc. Although it is 102 ℃ and the molding temperature is 108 ~ 116 ℃, the low thermal conductivity of waste styrofoam is generally required to be heated to 150 ℃ or higher higher than these temperatures. However, at this time, since toxic gas is generated, and the material recovered by high temperature treatment not only has physical properties different from that of polystyrene as a raw material, but also requires a large amount of heating energy, it is difficult to directly process it in the city center where waste styrofoam is collected. Inevitably, long distances have to be transported to the recycling site, resulting in increased transportation costs.

In addition, when the waste styrofoam is directly buried, the decomposition lifespan exceeds 100 years, causing severe soil pollution and taking up a large volume, which leads to the limitation of the landfill usage period, and when the waste styrofoam incineration is easily melted with heat, incomplete combustion There were a lot of potential problems.

On the other hand, in the conventional solution treatment method, since the solvent used is a hazardous substance and dissolves in a form difficult to recover the raw material, there is a problem in that oil must be recovered through a separate process from the treated material.

Therefore, when comprehensively examining these problems, waste styrofoam is the most reasonable method to be used directly as a styrofoam raw material or recycled raw material at the place of generation through a capturing device (which does not change its physical properties but reduces its volume). Judging from it, research on it continues.

In addition, the development of technology that can be environmentally acceptable at low temperatures can increase the recycling rate of waste styrofoam as well as increase the utilization of the recovered material.

An object of the present invention is to solve the problems described above, by discharging the waste styrofoam in the form of pellets or rods, a continuous waste styrofoam reduction apparatus and a method of using the same so that they can be used as styrofoam raw materials and recycled raw materials. To provide.

It is another object of the present invention to provide a continuous waste styrofoam reduction apparatus and a reduction method using the same that can be reduced to a minimum volume without changing the physical properties of the waste styrofoam.

Still another object of the present invention is to provide a continuous waste styrofoam reduction apparatus and a reduction method using the same, which can eliminate generation of wastewater or harmful gas by circulating the reduction solution.

1 is a schematic diagram schematically showing a continuous waste styrofoam reduction apparatus according to the present invention.

Figure 2 is a view showing a pellet molding machine in a continuous waste styrofoam reduction apparatus according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10 container 15 filter

17: storage jaw 20: hopper

30: crusher 40: first injection device

45: second injection device 50: drive motor

60: conical screw 65: screw shaft

70: reservoir 80: heating device

90: circulating pump 100: pellet molding machine

110: discharge hole 120: cutting device

125: fixed shaft

Continuous waste styrofoam reduction apparatus according to the present invention for achieving the above object of the present invention comprises a container for compressing the waste styrofoam; A hopper installed on an upper end of the container to inject waste styrofoam; A crusher built in the lower end of the hopper to crush the waste styrofoam put into the hopper; A first spraying device installed between the crusher and the container to spray the reducing solution onto the waste styrofoam crushed to a predetermined size; A screw shaft which is rotated by receiving the driving force of the driving motor and is extended from the front end to the rear end of the container; A conical screw integrally installed on the screw shaft to compress the waste styrofoam introduced into the container and transfer the waste styrofoam to the rear end of the container; A pellet molding machine installed at the rear end of the container for processing the compressed and compressed waste styrofoam into pellet shape; A reservoir connected to said container by a pipeline for storing a reducing solution; And a circulation pump for pumping the reducing solution from the reservoir to the first injection device.

The container is characterized in that the lower surface of the front end is formed to be inclined lower than the lower surface of the rear end, the pellet molding machine is formed with a plurality of discharge holes along the outermost circumferential direction, the cutting can rotate about a fixed axis It is characterized in that the device is installed.

A second injector for injecting the solution solution is further installed at the center upper end of the container, and a storage jaw is further installed on the lower surface of the front end of the container to prevent the flow of the solution solution. A filter for filtering the foreign matter contained in the solution is further installed, characterized in that the heating device for heating the reducing solution in the reservoir is further installed.

In addition, the waste styrofoam applying method according to the present invention comprises the steps of crushing the waste styrofoam into the size of 30 ~ 100mm; Spraying the reducing solution through the solution injection value to reduce the crushed material to 1/30 to 1/50; Compressing the treated waste styrofoam and separating the solid into a liquid; Discharging in pellet form through a pellet molding machine; And circulating the reducing solution by heating to 45 to 80 ° C.

At this time, the reducing solution is characterized by consisting of 50 to 99% distilled water and 1 to 50% petroleum-based solution.

Hereinafter, with reference to the drawings will be described in detail a continuous closed styrofoam reduction apparatus and a reduction method using the same.

1 is a schematic view schematically showing a continuous waste styrofoam reduction apparatus according to the present invention, Figure 2 is a view showing a pellet molding machine in a continuous waste styrofoam reduction apparatus according to the present invention.

1 and 2, the continuous waste styrofoam reduction apparatus according to the present invention is a device for continuously reducing waste styrofoam (foamed polystyrene) as a container 10, hopper 20, crusher 30 And first and second spraying devices 40, 45, screw shaft 65, conical screw 60, pellet forming machine, and reducing solution reservoir.

In more detail, a container 10 for compressing and reducing waste styrofoam is provided, and a hopper 20 is installed at an upper end of the container 10 to install waste styrofoam, and the hopper ( In order to crush the waste styrofoam injected into the 20), the crusher 30 is installed at the lower end of the hopper 20.

In this case, the container 10 is preferably formed to be inclined so that the lower surface of the front end portion is lower than the lower surface of the rear end portion, the outer peripheral wall of the container 10 is preferably formed of a heat insulating material.

In addition, a first spraying device 40 is installed between the crusher 30 and the container 10 to crush the waste styrofoam into a predetermined size by spraying a reducing solution onto the waste styrofoam to be introduced, and to the second spraying device ( 45) is installed separately in the central upper end of the container 10 can be further reduced while compressing the waste styrofoam.

A screw shaft 65 coupled to the drive motor 50 generating the driving force extends from the front end to the rear end of the container 10, and the conical screw 60 is integrally formed on the screw shaft 65. Installed to compress the waste styrofoam injected into the container 10 and to transport the compressed waste styrofoam to the rear end of the container (10).

At the rear end of the container 10, a pellet molding machine 100 is installed to recycle the compressed and compressed waste styrofoam into pellets or rods.

At this time, the pellet molding machine 100 is formed with a plurality of discharge holes 110 along the outermost circumferential direction, and is provided with a cutting device 120 that can rotate around the fixed shaft (125).

In addition, the storage tank 70 is connected to the container 10 by a pipeline (P) to store and circulate the reducing solution, the circulation pump 90 is installed on the pipeline (P) to the storage tank The reducing solution is pumped from 70 to flow into the first injection device 40 and the second injection device.

In addition, a storage jaw 17 is installed on the lower surface of the front end of the container 10 to prevent the flow of the reducing solution so that the reducing solution can be filled up to a certain height, and the filter 15 of the container 10 It is installed on the lower surface of the tip part to filter foreign matter contained in the solution.

In addition, a heating device 80 may be installed in the reservoir 70 to heat the reducing solution to a predetermined temperature.

Hereinafter, the operation of the continuous waste styrofoam applying apparatus of the present invention will be described in detail.

When the waste styrofoam is put into the hopper 20 and the apparatus is operated, the injected waste styrofoam is crushed into a size of 30 to 100 mm while passing through the crusher 30, and the crushed waste styrofoam is passed through the first spraying device 40. It is reduced to 1/30 to 1/50 by the reducing solution to be injected. The waste styrofoam first applied to the container 10 is moved to the rear end of the container while being compressed by the conical screw 60 that is rotated by the driving motor 50. At this time, while the reduction solution is injected through the second injection device 45, the waste styrofoam is reduced to secondary.

In addition, the reducing solution exceeding the reducing solution storage jaw 17 is filtered by the filter 15 and moved to the storage tank 70 and stored therein, and is heated to a predetermined temperature by the heating device 80 in the storage tank 70. . It is preferable that the said heating temperature is 45-80 degreeC.

Meanwhile, waste styrofoam treated in the container 10 may be discharged into a pellet or rod of a predetermined size while passing through the pellet molding machine 100, which is a cutting device 120 rotating around the fixed shaft 125. It is made by cutting the waste styrofoam passing through the discharge hole 110 by).

In addition, the reducing solution is preferably 50 to 99% distilled water and 1 to 50% petroleum-based solution.

Since the petroleum-based solution has a chemical property similar to that of the raw material of the styrofoam foaming agent, the solution mixed with distilled water is immediately reduced in contact with the styrofoam.

Through this process, waste styrofoam is not heated to high temperatures, so that no harmful gas is generated or no harmful water is generated from the reducing solution.

As described above, according to the continuous waste styrofoam reduction apparatus and the reduction method using the same according to the present invention, by compressing and reducing the waste styrofoam to be produced in the form of pellets or rods can be used as styrofoam raw materials and recycled raw materials, to the recycling place Easy to transport, there is no waste water or harmful gas generation.

In addition, as of 2000, the total amount of styrofoam used in Korea is over 200,000 tons, of which the packaging material is styrofoam 74,470 tons / year. Waste styrofoam from waste from packaging styrofoam is 53,024 tons / year, and recycled waste styrofoam is 27,177 tons / year, 51.3%. Since the remaining waste styrofoam is landfilled (32.5%, 15,637 tons / year) and incinerated (19.2%, 10,210 tons / year), plans to increase the recycling rate are urgently needed. An essential condition is environmentally friendly and low cost effective waste styrofoam reduction. In addition, the conventional application method is unlikely to be recycled to styrofoam because the recovered material is different from the raw material and physical properties, the present invention is excellent in recyclability because the raw material is recovered while preserving the physical properties.

On the other hand, while the above has been described with reference to the preferred embodiments of the present invention, those skilled in the art to which the present invention pertains without departing from the spirit and scope of the present invention described in the claims below It will be understood that modifications and changes can be made.

Claims (10)

A container 10 for compressing and reducing waste styrofoam; Hopper 20 is installed on the top end of the container 10 to inject waste styrofoam; A crusher 30 embedded in the lower end of the hopper 20 for crushing the waste styrofoam injected into the hopper 20; A first spraying device (40) installed between the crusher (30) and the container (10) to inject a reducing solution into waste styrofoam crushed to a predetermined size; A screw shaft 65 which is rotated by receiving the driving force of the driving motor 50 and extends from the front end to the rear end of the container 10; Conical screw (60) integrally installed on the screw shaft (65) for compressing the waste styrofoam introduced into the container (10) to be transferred to the rear end of the container (10); A pellet molding machine (100) installed at the rear end of the container (10) for processing the compressed and compressed waste styrofoam into pellets; A reservoir 70 connected to the container 10 by a pipeline for storing a reducing solution; And Continuous waste styrofoam reduction apparatus characterized in that it comprises a circulation pump (90) for pumping the reducing solution from the reservoir (70) to the first injection device (40). The continuous closed styrofoam reduction apparatus according to claim 1, wherein the container (10) is formed to be inclined such that the lower surface of the front end portion is lower than the lower surface of the rear end portion. 3. The continuous waste styrofoam reducing apparatus according to claim 2, wherein the outer wall of the container 10 is formed of a heat insulating material. According to claim 1 or 2, The pellet molding machine 100 is formed with a plurality of discharge holes 110 along the outermost circumferential direction, cutting device capable of rotating about the fixed shaft (125) ( Continuous waste styrofoam reduction apparatus, characterized in that 120) is installed. 5. The continuous waste styrofoam reducing apparatus according to claim 4, further comprising a second injector (45) for injecting a reducing solution into the central upper end of the container (10). 6. The continuous waste styrofoam reduction apparatus according to claim 5, wherein a storage jaw (17) is further provided on the lower surface of the front end of the container (10) to prevent the flow of the reducing solution. The continuous waste styrofoam reduction apparatus according to claim 6, wherein a filter (15) is further provided on the lower surface of the front end of the container (10) to filter foreign matter contained in the reduction solution. 8. The continuous waste styrofoam reducing apparatus according to claim 7, wherein a heating device (80) is further installed in the reservoir (70) to heat the reducing solution. Crushing the waste styrofoam into a size of 30 to 100 mm; Spraying the reducing solution through the solution injection value to reduce the crushed material to 1/30 to 1/50; Compressing the treated waste styrofoam and separating the solid into a liquid; Discharging in pellet form through a pellet molding machine; And Waste styrofoam reduction method comprising the step of circulating by heating the reducing solution to 45 ~ 80 ℃. The waste styrofoam reduction method according to claim 9, wherein the reducing solution comprises 50 to 99% of distilled water and 1 to 50% of petroleum-based solution.